# Copyright 2016 Red Hat Inc & Xena Networks.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#   http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Contributors:
#   Rick Alongi, Red Hat Inc.
#   Amit Supugade, Red Hat Inc.
#   Dan Amzulescu, Xena Networks
#   Christian Trautman, Red Hat Inc.

"""
Xena Traffic Generator Model
"""

# python imports
import binascii
import logging
import os
import subprocess
import sys
import xml.etree.ElementTree as ET
from collections import OrderedDict
from time import sleep

import scapy.layers.inet as inet

from conf import merge_spec
from conf import settings
from core.results.results_constants import ResultsConstants
from tools.pkt_gen.trafficgen.trafficgen import ITrafficGenerator
from tools.pkt_gen.xena.XenaDriver import (
    aggregate_stats,
    line_percentage,
    XenaSocketDriver,
    XenaManager,
    )
from tools.pkt_gen.xena.json.xena_json_mesh import XenaJSONMesh
from tools.pkt_gen.xena.json.xena_json_blocks import XenaJSONBlocks
from tools.pkt_gen.xena.json.xena_json_pairs import XenaJSONPairs

_CURR_DIR = os.path.dirname(os.path.realpath(__file__))

class Xena(ITrafficGenerator):
    """
    Xena Traffic generator wrapper class
    """
    _logger = logging.getLogger(__name__)

    def __init__(self):
        super().__init__()
        self.mono_pipe = None
        self.xmanager = None
        self._params = {}
        self._xsocket = None
        self._duration = None
        self.tx_stats = None
        self.rx_stats = None
        self._log_handle = None

        user_home = os.path.expanduser('~')
        self._log_path = '{}/Xena/Xena2544-2G/Logs/xena2544.log'.format(
            user_home)

        # make the folder and log file if they doesn't exist
        if not os.path.exists(self._log_path):
            os.makedirs(os.path.dirname(self._log_path))

        # empty the file contents
        open(self._log_path, 'w').close()

    @staticmethod
    def _create_throughput_result(root):
        """
        Create the results based off the output xml file from the Xena2544.exe
        execution
        :param root: root dictionary from xml import
        :return: Results Ordered dictionary based off ResultsConstants
        """
        # get the test type from the report file
        test_type = root[0][1].get('TestType')
        # set the version from the report file
        settings.setValue('XENA_VERSION', root[0][0][1].get('GeneratedBy'))

        if test_type == 'Throughput':
            results = OrderedDict()
            results[ResultsConstants.THROUGHPUT_RX_FPS] = float(
                root[0][1][0][0].get('PortRxPps')) + float(
                    root[0][1][0][1].get('PortRxPps'))
            results[ResultsConstants.THROUGHPUT_RX_MBPS] = (float(
                root[0][1][0][0].get('PortRxBpsL1')) + float(
                    root[0][1][0][1].get('PortRxBpsL1')))/ 1000000
            results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
                100 - float(root[0][1][0].get('TotalLossRatioPcnt'))) * float(
                    root[0][1][0].get('TotalTxRatePcnt'))/100
            results[ResultsConstants.TX_RATE_FPS] = root[0][1][0].get(
                'TotalTxRateFps')
            results[ResultsConstants.TX_RATE_MBPS] = float(
                root[0][1][0].get('TotalTxRateBpsL1')) / 1000000
            results[ResultsConstants.TX_RATE_PERCENT] = root[0][1][0].get(
                'TotalTxRatePcnt')
            try:
                results[ResultsConstants.MIN_LATENCY_NS] = float(
                    root[0][1][0][0].get('MinLatency')) * 1000
            except ValueError:
                # Stats for latency returned as N/A so just post them
                results[ResultsConstants.MIN_LATENCY_NS] = root[0][1][0][0].get(
                    'MinLatency')
            try:
                results[ResultsConstants.MAX_LATENCY_NS] = float(
                    root[0][1][0][0].get('MaxLatency')) * 1000
            except ValueError:
                # Stats for latency returned as N/A so just post them
                results[ResultsConstants.MAX_LATENCY_NS] = root[0][1][0][0].get(
                    'MaxLatency')
            try:
                results[ResultsConstants.AVG_LATENCY_NS] = float(
                    root[0][1][0][0].get('AvgLatency')) * 1000
            except ValueError:
                # Stats for latency returned as N/A so just post them
                results[ResultsConstants.AVG_LATENCY_NS] = root[0][1][0][0].get(
                    'AvgLatency')
        elif test_type == 'Back2Back':
            results = OrderedDict()

            # Just mimic what Ixia does and only return the b2b frame count.
            # This may change later once its decided the common results stats
            # to be returned should be.
            results[ResultsConstants.B2B_FRAMES] = root[0][1][0][0].get(
                'TotalTxBurstFrames')
        else:
            raise NotImplementedError('Unknown test type in report file.')

        return results

    def _build_packet_header(self, reverse=False):
        """
        Build a packet header based on traffic profile using scapy external
        libraries.
        :param reverse: Swap source and destination info when building header
        :return: packet header in hex
        """
        srcmac = self._params['traffic']['l2'][
            'srcmac'] if not reverse else self._params['traffic']['l2'][
                'dstmac']
        dstmac = self._params['traffic']['l2'][
            'dstmac'] if not reverse else self._params['traffic']['l2'][
                'srcmac']
        srcip = self._params['traffic']['l3'][
            'srcip'] if not reverse else self._params['traffic']['l3']['dstip']
        dstip = self._params['traffic']['l3'][
            'dstip'] if not reverse else self._params['traffic']['l3']['srcip']
        layer2 = inet.Ether(src=srcmac, dst=dstmac)
        layer3 = inet.IP(src=srcip, dst=dstip,
                         proto=self._params['traffic']['l3']['proto'])
        layer4 = inet.UDP(sport=self._params['traffic']['l4']['srcport'],
                          dport=self._params['traffic']['l4']['dstport'])
        if self._params['traffic']['vlan']['enabled']:
            vlan = inet.Dot1Q(vlan=self._params['traffic']['vlan']['id'],
                              prio=self._params['traffic']['vlan']['priority'],
                              id=self._params['traffic']['vlan']['cfi'])
        else:
            vlan = None
        packet = layer2/vlan/layer3/layer4 if vlan else layer2/layer3/layer4
        packet_bytes = bytes(packet)
        packet_hex = '0x' + binascii.hexlify(packet_bytes).decode('utf-8')
        return packet_hex

    def _create_api_result(self):
        """
        Create result dictionary per trafficgen specifications from socket API
        stats. If stats are not available return values of 0.
        :return: ResultsConstants as dictionary
        """
        # Handle each case of statistics based on if the data is available.
        # This prevents uncaught exceptions when the stats aren't available.
        result_dict = OrderedDict()
        if self.tx_stats.data.get(self.tx_stats.pt_stream_keys[0]):
            result_dict[ResultsConstants.TX_FRAMES] = self.tx_stats.data[
                self.tx_stats.pt_stream_keys[0]]['packets']
            result_dict[ResultsConstants.TX_RATE_FPS] = self.tx_stats.data[
                self.tx_stats.pt_stream_keys[0]]['packets'] / self._duration
            result_dict[ResultsConstants.TX_RATE_MBPS] = ((
                self.tx_stats.data[self.tx_stats.pt_stream_keys[0]]['bytes']
                * 8) / 1000000) / self._duration
            result_dict[ResultsConstants.TX_BYTES] = self.tx_stats.data[
                self.tx_stats.pt_stream_keys[0]]['bytes']
            # tx rate percent may need to be halved if bi directional
            result_dict[ResultsConstants.TX_RATE_PERCENT] = line_percentage(
                self.xmanager.ports[0], self.tx_stats, self._duration,
                self._params['traffic']['l2']['framesize']) if \
                self._params['traffic']['bidir'] == 'False' else\
                line_percentage(
                    self.xmanager.ports[0], self.tx_stats, self._duration,
                    self._params['traffic']['l2']['framesize']) / 2
        else:
            self._logger.error('Transmit stats not available.')
            result_dict[ResultsConstants.TX_FRAMES] = 0
            result_dict[ResultsConstants.TX_RATE_FPS] = 0
            result_dict[ResultsConstants.TX_RATE_MBPS] = 0
            result_dict[ResultsConstants.TX_BYTES] = 0
            result_dict[ResultsConstants.TX_RATE_PERCENT] = 0

        if self.rx_stats.data.get('pr_tpldstraffic'):
            result_dict[ResultsConstants.RX_FRAMES] = self.rx_stats.data[
                'pr_tpldstraffic']['0']['packets']
            result_dict[
                ResultsConstants.THROUGHPUT_RX_FPS] = self.rx_stats.data[
                    'pr_tpldstraffic']['0']['packets'] / self._duration
            result_dict[
                ResultsConstants.THROUGHPUT_RX_MBPS] = ((
                    self.rx_stats.data['pr_tpldstraffic']['0']['bytes']
                    *8) / 1000000) / self._duration
            result_dict[ResultsConstants.RX_BYTES] = self.rx_stats.data[
                'pr_tpldstraffic']['0']['bytes']
            # throughput percent may need to be halved if bi directional
            result_dict[
                ResultsConstants.THROUGHPUT_RX_PERCENT] = line_percentage(
                    self.xmanager.ports[1], self.rx_stats, self._duration,
                    self._params['traffic']['l2']['framesize']) if \
                self._params['traffic']['bidir'] == 'False' else \
                line_percentage(
                    self.xmanager.ports[1], self.rx_stats, self._duration,
                    self._params['traffic']['l2']['framesize']) / 2

        else:
            self._logger.error('Receive stats not available.')
            result_dict[ResultsConstants.RX_FRAMES] = 0
            result_dict[ResultsConstants.THROUGHPUT_RX_FPS] = 0
            result_dict[ResultsConstants.THROUGHPUT_RX_MBPS] = 0
            result_dict[ResultsConstants.RX_BYTES] = 0
            result_dict[ResultsConstants.THROUGHPUT_RX_PERCENT] = 0

        if self.rx_stats.data.get('pr_tplderrors'):
            result_dict[ResultsConstants.PAYLOAD_ERR] = self.rx_stats.data[
                'pr_tplderrors']['0']['pld']
            result_dict[ResultsConstants.SEQ_ERR] = self.rx_stats.data[
                'pr_tplderrors']['0']['seq']
        else:
            result_dict[ResultsConstants.PAYLOAD_ERR] = 0
            result_dict[ResultsConstants.SEQ_ERR] = 0

        if self.rx_stats.data.get('pr_tpldlatency'):
            result_dict[ResultsConstants.MIN_LATENCY_NS] = self.rx_stats.data[
                'pr_tpldlatency']['0']['min']
            result_dict[ResultsConstants.MAX_LATENCY_NS] = self.rx_stats.data[
                'pr_tpldlatency']['0']['max']
            result_dict[ResultsConstants.AVG_LATENCY_NS] = self.rx_stats.data[
                'pr_tpldlatency']['0']['avg']
        else:
            result_dict[ResultsConstants.MIN_LATENCY_NS] = 0
            result_dict[ResultsConstants.MAX_LATENCY_NS] = 0
            result_dict[ResultsConstants.AVG_LATENCY_NS] = 0

        return result_dict

    def _setup_json_config(self, tests, loss_rate, testtype=None,
                           bonding_test=False):
        """
        Create a 2bUsed json file that will be used for xena2544.exe execution.
        :param tests: Number of tests
        :param loss_rate: The acceptable loss rate as float
        :param testtype: Either '2544_b2b' or '2544_throughput' as string
        :param bonding_test: Specify if the test is a bonding test which will
        enable the pairs topology
        :return: None
        """
        # set duplex mode, this code is valid, pylint complaining with a
        # warning that many have complained about online.
        # pylint: disable=redefined-variable-type

        try:
            if self._params['traffic']['bidir'] == "True":
                j_file = XenaJSONMesh()
            elif self._params['traffic']['bidir'] == "False":
                j_file = XenaJSONBlocks()
            elif bonding_test:
                j_file = XenaJSONPairs()

            j_file.set_chassis_info(
                settings.getValue('TRAFFICGEN_XENA_IP'),
                settings.getValue('TRAFFICGEN_XENA_PASSWORD')
            )
            j_file.set_port(0, settings.getValue('TRAFFICGEN_XENA_MODULE1'),
                            settings.getValue('TRAFFICGEN_XENA_PORT1'))
            j_file.set_port(1, settings.getValue('TRAFFICGEN_XENA_MODULE2'),
                            settings.getValue('TRAFFICGEN_XENA_PORT2'))
            j_file.set_port_ip_v4(
                0, settings.getValue("TRAFFICGEN_XENA_PORT0_IP"),
                settings.getValue("TRAFFICGEN_XENA_PORT0_CIDR"),
                settings.getValue("TRAFFICGEN_XENA_PORT0_GATEWAY"))
            j_file.set_port_ip_v4(
                1, settings.getValue("TRAFFICGEN_XENA_PORT1_IP"),
                settings.getValue("TRAFFICGEN_XENA_PORT1_CIDR"),
                settings.getValue("TRAFFICGEN_XENA_PORT1_GATEWAY"))

            if testtype == '2544_throughput':
                j_file.set_test_options_tput(
                    packet_sizes=self._params['traffic']['l2']['framesize'],
                    iterations=tests, loss_rate=loss_rate,
                    duration=self._duration, micro_tpld=True if self._params[
                        'traffic']['l2']['framesize'] == 64 else False)
                j_file.enable_throughput_test()
                j_file.modify_2544_tput_options(
                    settings.getValue('TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE'),
                    settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE'),
                    settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE'),
                    settings.getValue(
                        'TRAFFICGEN_XENA_2544_TPUT_VALUE_RESOLUTION'),
                    settings.getValue(
                        'TRAFFICGEN_XENA_2544_TPUT_USEPASS_THRESHHOLD'),
                    settings.getValue(
                        'TRAFFICGEN_XENA_2544_TPUT_PASS_THRESHHOLD')
                )

            elif testtype == '2544_b2b':
                j_file.set_test_options_back2back(
                    packet_sizes=self._params['traffic']['l2']['framesize'],
                    iterations=tests, duration=self._duration,
                    startvalue=self._params['traffic']['frame_rate'],
                    endvalue=self._params['traffic']['frame_rate'],
                    micro_tpld=True if self._params[
                        'traffic']['l2']['framesize'] == 64 else False)
                j_file.enable_back2back_test()

            j_file.set_header_layer2(
                dst_mac=self._params['traffic']['l2']['dstmac'],
                src_mac=self._params['traffic']['l2']['srcmac'])
            j_file.set_header_layer3(
                src_ip=self._params['traffic']['l3']['srcip'],
                dst_ip=self._params['traffic']['l3']['dstip'],
                protocol=self._params['traffic']['l3']['proto'])
            j_file.set_header_layer4_udp(
                source_port=self._params['traffic']['l4']['srcport'],
                destination_port=self._params['traffic']['l4']['dstport'])
            if self._params['traffic']['vlan']['enabled']:
                j_file.set_header_vlan(
                    vlan_id=self._params['traffic']['vlan']['id'],
                    id=self._params['traffic']['vlan']['cfi'],
                    prio=self._params['traffic']['vlan']['priority'])
            j_file.add_header_segments(
                flows=self._params['traffic']['multistream'],
                multistream_layer=self._params['traffic']['stream_type'])

            j_file.write_config(os.path.join(
                _CURR_DIR, 'profiles/2bUsed.x2544'))
        except Exception as exc:
            self._logger.exception("Error during Xena JSON setup: %s", exc)
            raise

    def _start_traffic_api(self, packet_limit):
        """
        Start the Xena traffic using the socket API driver
        :param packet_limit: packet limit for stream, set to -1 for no limit
        :return: None
        """
        if not self.xmanager:
            self._xsocket = XenaSocketDriver(
                settings.getValue('TRAFFICGEN_XENA_IP'))
            self.xmanager = XenaManager(
                self._xsocket, settings.getValue('TRAFFICGEN_XENA_USER'),
                settings.getValue('TRAFFICGEN_XENA_PASSWORD'))

        # for the report file version info ask the chassis directly for its
        # software versions
        settings.setValue('XENA_VERSION', 'XENA Socket API - {}'.format(
            self.xmanager.get_version()))

        if not self.xmanager.ports:
            self.xmanager.ports[0] = self.xmanager.add_module_port(
                settings.getValue('TRAFFICGEN_XENA_MODULE1'),
                settings.getValue('TRAFFICGEN_XENA_PORT1'))
            if not self.xmanager.ports[0].reserve_port():
                self._logger.error(
                    'Unable to reserve port 0. Please release Xena Port')

        if len(self.xmanager.ports) < 2:
            self.xmanager.ports[1] = self.xmanager.add_module_port(
                settings.getValue('TRAFFICGEN_XENA_MODULE2'),
                settings.getValue('TRAFFICGEN_XENA_PORT2'))
            if not self.xmanager.ports[1].reserve_port():
                self._logger.error(
                    'Unable to reserve port 1. Please release Xena Port')

        # Clear port configuration for a clean start
        self.xmanager.ports[0].reset_port()
        self.xmanager.ports[1].reset_port()
        if settings.getValue('TRAFFICGEN_XENA_CONT_PORT_LEARNING_ENABLED'):
            # turn on port learning
            self.xmanager.ports[0].set_port_learning(1)
            self.xmanager.ports[1].set_port_learning(1)
            sleep(settings.getValue('TRAFFICGEN_XENA_CONT_PORT_LEARNING_DURATION'))
            # turn off port learning
            self.xmanager.ports[0].set_port_learning(0)
            self.xmanager.ports[1].set_port_learning(0)
            sleep(1)
        self.xmanager.ports[0].clear_stats()
        self.xmanager.ports[1].clear_stats()

        # set the port IP from the conf file
        self.xmanager.ports[0].set_port_ip(
            settings.getValue('TRAFFICGEN_XENA_PORT0_IP'),
            settings.getValue('TRAFFICGEN_XENA_PORT0_CIDR'),
            settings.getValue('TRAFFICGEN_XENA_PORT0_GATEWAY'))
        self.xmanager.ports[1].set_port_ip(
            settings.getValue('TRAFFICGEN_XENA_PORT1_IP'),
            settings.getValue('TRAFFICGEN_XENA_PORT1_CIDR'),
            settings.getValue('TRAFFICGEN_XENA_PORT1_GATEWAY'))
        self.xmanager.ports[0].set_port_time_limit(self._duration)
        self.xmanager.ports[1].set_port_time_limit(self._duration)

        def setup_stream(stream, port, payload_id, flip_addr=False):
            """
            Helper function to configure streams.
            :param stream: Stream object from XenaDriver module
            :param port: Port object from XenaDriver module
            :param payload_id: payload ID as int
            :param flip_addr: Boolean if the source and destination addresses
            should be flipped.
            :return: None
            """
            stream.set_on()
            if packet_limit != -1:
                stream.set_packet_limit(packet_limit)

            port.set_port_arp_reply(is_on=True)
            port.set_port_arp_reply(is_on=True, ipv6=True)
            port.set_port_ping_reply(is_on=True)
            port.set_port_ping_reply(is_on=True, ipv6=True)

            stream.set_rate_fraction(int(
                10000 * self._params['traffic']['frame_rate']))
            stream.set_packet_header(self._build_packet_header(
                reverse=flip_addr))
            stream.set_header_protocol(
                'ETHERNET VLAN IP UDP' if self._params['traffic']['vlan'][
                    'enabled'] else 'ETHERNET IP UDP')
            stream.set_packet_length(
                'fixed', self._params['traffic']['l2']['framesize'],
                self._params['traffic']['l2']['framesize'])
            stream.set_packet_payload('incrementing', '0x00')
            stream.set_payload_id(payload_id)
            port.set_port_time_limit(self._duration * 1000000)

            if self._params['traffic']['l2']['framesize'] == 64:
                # set micro tpld
                port.micro_tpld_enable()

            if self._params['traffic']['multistream']:
                stream.enable_multistream(
                    flows=self._params['traffic']['multistream'],
                    layer=self._params['traffic']['stream_type'])

        s1_p0 = self.xmanager.ports[0].add_stream()
        setup_stream(s1_p0, self.xmanager.ports[0], 0)

        if self._params['traffic']['bidir'] == 'True':
            s1_p1 = self.xmanager.ports[1].add_stream()
            setup_stream(s1_p1, self.xmanager.ports[1], 1, flip_addr=True)

        if not self.xmanager.ports[0].traffic_on():
            self._logger.error(
                "Failure to start port 0. Check settings and retry.")
        if self._params['traffic']['bidir'] == 'True':
            if not self.xmanager.ports[1].traffic_on():
                self._logger.error(
                    "Failure to start port 1. Check settings and retry.")
        sleep(self._duration + 5) # the extra 5 seconds is to allow packets in flight to complete
        # getting results
        if self._params['traffic']['bidir'] == 'True':
            # need to aggregate out both ports stats and assign that data
            self.rx_stats = self.xmanager.ports[1].get_rx_stats()
            self.tx_stats = self.xmanager.ports[0].get_tx_stats()
            self.tx_stats.data = aggregate_stats(
                self.tx_stats.data,
                self.xmanager.ports[1].get_tx_stats().data)
            self.rx_stats.data = aggregate_stats(
                self.rx_stats.data,
                self.xmanager.ports[0].get_rx_stats().data)
        else:
            # no need to aggregate, just grab the appropriate port stats
            self.tx_stats = self.xmanager.ports[0].get_tx_stats()
            self.rx_stats = self.xmanager.ports[1].get_rx_stats()
        sleep(1)

    def _start_xena_2544(self):
        """
        Start the xena2544 exe.
        :return: None
        """
        args = ["mono", os.path.join(_CURR_DIR, "Xena2544.exe"), "-c",
                os.path.join(_CURR_DIR, "profiles/2bUsed.x2544"), "-e", "-r",
                _CURR_DIR, "-u",
                settings.getValue('TRAFFICGEN_XENA_USER')]
        # Sometimes Xena2544.exe completes, but mono holds the process without
        # releasing it, this can cause a deadlock of the main thread. Use the
        # xena log file as a way to detect this.
        self._log_handle = open(self._log_path, 'r')
        # read the contents of the log before we start so the next read in the
        # wait method are only looking at the text from this test instance
        self._log_handle.read()
        self.mono_pipe = subprocess.Popen(args, stdout=sys.stdout)

    def _wait_xena_2544_complete(self):
        """
        Wait for Xena2544.exe completion.
        :return: None
        """
        data = ''
        while True:
            try:
                self.mono_pipe.wait(60)
                self._log_handle.close()
                break
            except subprocess.TimeoutExpired:
                # check the log to see if Xena2544 has completed and mono is
                # deadlocked.
                data += self._log_handle.read()
                if 'TestCompletedSuccessfully' in data:
                    self._log_handle.close()
                    self.mono_pipe.terminate()
                    break

    def _stop_api_traffic(self):
        """
        Stop traffic through the socket API
        :return: Return results from _create_api_result method
        """
        self.xmanager.ports[0].traffic_off()
        if self._params['traffic']['bidir'] == 'True':
            self.xmanager.ports[1].traffic_off()
        sleep(5)

        stat = self._create_api_result()
        self.disconnect()
        return stat

    def connect(self):
        self._logger.debug('Connect')
        return self

    def disconnect(self):
        """Disconnect from the traffic generator.

        As with :func:`connect`, this function is optional.


        Where implemented, this function should raise an exception on
        failure.

        :returns: None
        """
        self._logger.debug('disconnect')
        if self.xmanager:
            self.xmanager.disconnect()
            self.xmanager = None

        if self._xsocket:
            self._xsocket.disconnect()
            self._xsocket = None

    def send_burst_traffic(self, traffic=None, numpkts=100, duration=20):
        """Send a burst of traffic.

        See ITrafficGenerator for description
        """
        self._duration = duration
        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._start_traffic_api(numpkts)
        return self._stop_api_traffic()

    def send_cont_traffic(self, traffic=None, duration=20):
        """Send a continuous flow of traffic.

        See ITrafficGenerator for description
        """
        self._duration = duration

        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._start_traffic_api(-1)
        return self._stop_api_traffic()

    def start_cont_traffic(self, traffic=None, duration=20):
        """Non-blocking version of 'send_cont_traffic'.

        See ITrafficGenerator for description
        """
        self._duration = duration

        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._start_traffic_api(-1)

    def stop_cont_traffic(self):
        """Stop continuous transmission and return results.
        """
        return self._stop_api_traffic()

    def send_rfc2544_throughput(self, traffic=None, tests=1, duration=20,
                                lossrate=0.0):
        """Send traffic per RFC2544 throughput test specifications.

        See ITrafficGenerator for description
        """
        self._duration = duration

        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._setup_json_config(tests, lossrate, '2544_throughput')
        self._start_xena_2544()
        self._wait_xena_2544_complete()

        root = ET.parse(os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()

        if settings.getValue('TRAFFICGEN_XENA_RFC2544_VERIFY'):
            # make sure we have a pass before even trying the verify. No need
            # to run verify on a failed iteration.
            root = ET.parse(
                os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()
            if root[0][1][0].get('TestState') == "FAIL":
                self._logger.info('Test failed, skipping verify')
                return Xena._create_throughput_result(root)

            # record the previous settings so we can revert to them if needed to
            # run the binary search again if the verify fails.
            old_tests = tests
            old_duration = self._duration
            old_min = settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE')

            # record the original values to restore after execution
            orig_min = settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE')
            orig_max = settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE')
            orig_init = settings.getValue('TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE')

            for attempt in range(
                    1, settings.getValue(
                        'TRAFFICGEN_XENA_RFC2544_MAXIMUM_VERIFY_ATTEMPTS')+1):
                self._logger.info('Running verify attempt %s', attempt)
                # get the last pass tx rate from the binary search
                pass_rate = float(root[0][1][0].get('TotalTxRatePcnt'))
                # run a one pass rfc2544 with the pass rate to see if it passes
                # the verify duration
                settings.setValue(
                    'TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE', pass_rate)
                settings.setValue(
                    'TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE', pass_rate)
                settings.setValue(
                    'TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE', pass_rate)
                self.start_rfc2544_throughput(
                    traffic, 1, settings.getValue(
                        'TRAFFICGEN_XENA_RFC2544_VERIFY_DURATION'), lossrate)
                self.wait_rfc2544_throughput()
                root = ET.parse(
                    os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()

                # If it passed, report the number of lost frames and exit the
                # loop
                if root[0][1][0].get('TestState') == "PASS":
                    self._logger.info('Verify passed, packets lost = %s',
                                      root[0][1][0].get('TotalLossFrames'))
                    break
                elif attempt < settings.getValue(
                        'TRAFFICGEN_XENA_RFC2544_MAXIMUM_VERIFY_ATTEMPTS'):
                    self._logger.info(
                        'Verify failed, resuming binary search, packets lost = %s',
                        root[0][1][0].get('TotalLossFrames'))
                    settings.setValue(
                        'TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE',
                        pass_rate - float(settings.getValue(
                            'TRAFFICGEN_XENA_2544_TPUT_VALUE_RESOLUTION')))
                    if settings.getValue(
                            'TRAFFICGEN_XENA_RFC2544_BINARY_RESTART_SMART_SEARCH'):
                        settings.setValue(
                            'TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE',
                            (pass_rate - float(old_min)) / 2)
                    else:
                        settings.setValue(
                            'TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE',
                            pass_rate - float(settings.getValue(
                                'TRAFFICGEN_XENA_2544_TPUT_VALUE_RESOLUTION')))
                    settings.setValue(
                        'TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE', old_min)
                    self._logger.debug(
                        'RFC2544 Initial rate: %s',
                        settings.getValue('TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE'))
                    self._logger.debug(
                        'RFC2544 Maximum rate: %s',
                        settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE'))
                    self._logger.debug(
                        'RFC2544 Minimum rate: %s',
                        settings.getValue('TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE'))
                    self._duration = old_duration
                    self.start_rfc2544_throughput(
                        traffic, old_tests, self._duration, lossrate)
                    self.wait_rfc2544_throughput()
                    root = ET.parse(
                        os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()
                else:
                    self._logger.error(
                        'Maximum number of verify attempts reached. Reporting last result')

            #restore original values
            settings.setValue('TRAFFICGEN_XENA_2544_TPUT_MIN_VALUE', orig_min)
            settings.setValue('TRAFFICGEN_XENA_2544_TPUT_MAX_VALUE', orig_max)
            settings.setValue('TRAFFICGEN_XENA_2544_TPUT_INIT_VALUE', orig_init)

        return Xena._create_throughput_result(root)

    def start_rfc2544_throughput(self, traffic=None, tests=1, duration=20,
                                 lossrate=0.0):
        """Non-blocking version of 'send_rfc2544_throughput'.

        See ITrafficGenerator for description
        """
        self._duration = duration
        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._setup_json_config(tests, lossrate, '2544_throughput')
        self._start_xena_2544()

    def wait_rfc2544_throughput(self):
        """Wait for and return results of RFC2544 test.

        See ITrafficGenerator for description
        """
        self._wait_xena_2544_complete()
        root = ET.parse(os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()
        return Xena._create_throughput_result(root)

    def send_rfc2544_back2back(self, traffic=None, tests=1, duration=20,
                               lossrate=0.0):
        """Send traffic per RFC2544 back2back test specifications.

        See ITrafficGenerator for description
        """
        self._duration = duration

        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._setup_json_config(tests, lossrate, '2544_b2b')
        self._start_xena_2544()
        self._wait_xena_2544_complete()
        root = ET.parse(os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()
        return Xena._create_throughput_result(root)

    def start_rfc2544_back2back(self, traffic=None, tests=1, duration=20,
                                lossrate=0.0):
        """Non-blocking version of 'send_rfc2544_back2back'.

        See ITrafficGenerator for description
        """
        self._duration = duration
        self._params.clear()
        self._params['traffic'] = self.traffic_defaults.copy()
        if traffic:
            self._params['traffic'] = merge_spec(self._params['traffic'],
                                                 traffic)
        self._setup_json_config(tests, lossrate, '2544_b2b')
        self._start_xena_2544()

    def wait_rfc2544_back2back(self):
        """Wait and set results of RFC2544 test.
        """
        self._wait_xena_2544_complete()
        root = ET.parse(os.path.join(_CURR_DIR, "xena2544-report.xml")).getroot()
        return Xena._create_throughput_result(root)


if __name__ == "__main__":
    pass
